//! Linux-specific file system event handling using inotify

use super::EventHandler;
use crate::infra::event::{Event, FsRawEventKind};
use crate::service::watcher::event_handler::WatcherEventKind;
use crate::service::watcher::{WatchedLocation, WatcherEvent};
use anyhow::Result;
use std::collections::HashMap;
use std::path::PathBuf;
use std::sync::Arc;
use std::time::{Duration, Instant};
use tokio::sync::RwLock;
use tracing::{debug, trace};
use uuid::Uuid;

/// Linux-specific event handler that uses inotify
pub struct LinuxHandler {
	/// Recently processed events for debouncing
	recent_events: Arc<RwLock<HashMap<PathBuf, Instant>>>,
	/// Debounce duration
	debounce_duration: Duration,
}

impl LinuxHandler {
	pub fn new() -> Self {
		Self {
			recent_events: Arc::new(RwLock::new(HashMap::new())),
			debounce_duration: Duration::from_millis(50), // Linux inotify is generally faster
		}
	}

	/// Check if event should be debounced
	async fn should_debounce(&self, path: &PathBuf) -> bool {
		let mut recent = self.recent_events.write().await;
		let now = Instant::now();

		// Check if we've seen this path recently
		if let Some(&last_seen) = recent.get(path) {
			if now.duration_since(last_seen) < self.debounce_duration {
				return true;
			}
		}

		recent.insert(path.clone(), now);

		// Cleanup old entries
		recent.retain(|_, &mut last_seen| now.duration_since(last_seen) < Duration::from_secs(1));

		false
	}

	/// Handle Linux-specific rename detection
	/// Linux inotify provides cleaner rename events compared to macOS
	async fn handle_rename_events(
		&self,
		event: &WatcherEvent,
		watched_locations: &Arc<RwLock<HashMap<Uuid, WatchedLocation>>>,
	) -> Result<Vec<Event>> {
		let mut events = Vec::new();

		if let WatcherEventKind::Rename { from, to } = &event.kind {
			let locations = watched_locations.read().await;
			for location in locations.values() {
				if location.enabled
					&& (from.starts_with(&location.path) || to.starts_with(&location.path))
				{
					events.push(Event::FsRawChange {
						library_id: location.library_id,
						kind: FsRawEventKind::Rename {
							from: from.clone(),
							to: to.clone(),
						},
					});
					break;
				}
			}
		}

		Ok(events)
	}
}

#[async_trait::async_trait]
impl EventHandler for LinuxHandler {
	async fn process_event(
		&self,
		event: WatcherEvent,
		watched_locations: &Arc<RwLock<HashMap<Uuid, WatchedLocation>>>,
	) -> Result<Vec<Event>> {
		if !event.should_process() {
			return Ok(vec![]);
		}

		let mut events = Vec::new();

		// Handle rename events specially
		if let WatcherEventKind::Rename { .. } = &event.kind {
			return self.handle_rename_events(&event, watched_locations).await;
		}

		// Process other event types
		for path in &event.paths {
			// Check for debouncing
			if self.should_debounce(path).await {
				debug!("Debounced event for: {}", path.display());
				continue;
			}

			let locations = watched_locations.read().await;
			for location in locations.values() {
				if !location.enabled || !path.starts_with(&location.path) {
					continue;
				}

				match &event.kind {
					WatcherEventKind::Create => {
						events.push(Event::FsRawChange {
							library_id: location.library_id,
							kind: FsRawEventKind::Create { path: path.clone() },
						});
						trace!("Linux: Created {}", path.display());
					}
					WatcherEventKind::Modify => {
						events.push(Event::FsRawChange {
							library_id: location.library_id,
							kind: FsRawEventKind::Modify { path: path.clone() },
						});
						trace!("Linux: Modified {}", path.display());
					}
					WatcherEventKind::Remove => {
						events.push(Event::FsRawChange {
							library_id: location.library_id,
							kind: FsRawEventKind::Remove { path: path.clone() },
						});
						trace!("Linux: Removed {}", path.display());
					}
					_ => {
						trace!("Linux: Unhandled event type for {}", path.display());
					}
				}
				break;
			}
		}

		Ok(events)
	}

	async fn tick(&self) -> Result<()> {
		// Linux inotify is generally more reliable and doesn't need as much cleanup
		let mut recent = self.recent_events.write().await;
		let now = Instant::now();

		// Clean up old debounce entries
		recent.retain(|_, &mut last_seen| now.duration_since(last_seen) < Duration::from_secs(5));

		Ok(())
	}
}

#[cfg(test)]
mod tests {
	use super::*;
	use std::time::SystemTime;

	#[tokio::test]
	async fn test_linux_handler_creation() {
		let handler = LinuxHandler::new();
		assert_eq!(handler.debounce_duration, Duration::from_millis(50));
	}

	#[tokio::test]
	async fn test_debounce_logic() {
		let handler = LinuxHandler::new();
		let path = PathBuf::from("/test/file.txt");

		// First event should not be debounced
		assert!(!handler.should_debounce(&path).await);

		// Second immediate event should be debounced
		assert!(handler.should_debounce(&path).await);

		// Wait for debounce period and try again
		tokio::time::sleep(Duration::from_millis(60)).await;
		assert!(!handler.should_debounce(&path).await);
	}

	#[tokio::test]
	async fn test_rename_event_handling() {
		let handler = LinuxHandler::new();
		let watched_locations = Arc::new(RwLock::new(HashMap::new()));

		let event = WatcherEvent {
			kind: WatcherEventKind::Rename {
				from: PathBuf::from("/test/old.txt"),
				to: PathBuf::from("/test/new.txt"),
			},
			paths: vec![
				PathBuf::from("/test/old.txt"),
				PathBuf::from("/test/new.txt"),
			],
			timestamp: SystemTime::now(),
			attrs: vec![],
		};

		let events = handler
			.handle_rename_events(&event, &watched_locations)
			.await
			.unwrap();
		// Should be empty since no locations are configured
		assert_eq!(events.len(), 0);
	}
}
